A solid-state component with three layers of semiconductors is a

Answers

Answer 1

Answer: A solid-state component with three layers of semiconductors is a transistor.

Answer 2

Answer:

Answer: A solid-state component with three layers of semiconductors is a transistor.

Explanation:

A device with the help of which current or voltage is regulated and for electronic signals it acts as a switch or gate is known as a transistor.

A transistor has three layers of semiconductors. Each of these layers are capable of carrying current.

Thus, we can conclude that a solid-state component with three layers of semiconductors is a transistor.

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What is Rutherford atomic modle

Answers

Answer:

Rutherford's atomic model explained how the electrons surrounded the nucleus of protons and neutrons. His model showed how J. J. Thomson's Plum Pudding model was incorrect.

Answer:Rutherford model of an atom shows that an atom is mostly an empty space,with electrons orbiting a fixed positively charged nucleus in set.

Explanation:

What particle is needed to complete the following equation 14 7 n + 14 6 c +1 1 h

Answers

1 over 0n just look at it

Consider this molecular‑level representation of a mixture of gases. There are three gas particles containing two spheres. There are six gas particles containing a single sphere of a different color. There are five gas particles containing a single sphere of a third color. If the partial pressure of the diatomic gas is 0.330 atm, what is the total pressure?

Answers

The total pressure of the gaseous mixture is 1.57 atm.

The mixture of the gases consists of 3 diatomic molecules, 6 monoatomic molecules, and 5 other monoatomic molecules.

The total number of molecules in the mixture are:

$\rm Total\;molecules\;=\;3+6+5\nTotal\;molecules\;=\;14$

Computation for the total pressure of the gas

The total pressure of a gas by Raoult's law is given as:

$\rm Total\;pressure=(Partial\;pressure)/(Mole\;fraction)$

The partial pressure of the diatomic gas is 0.330 atm.

The mole fraction of the diatomic gas is given as:

$\rm Mole\;fraction=(Molecules\;of\;diatomic\;gas)/(Total\;molecules) \n\nMole\;fraction=(3)/(14)\n\n Mole\;fraction=0.2$

The mole fraction of the diatomic gas is 0.2.

The total pressure of the gas is given as:

$\rm Total\;pressure=(0.330)/(0.2)\;atm\n\n Total\;pressure=1.57\;atm$

The total pressure of the gaseous mixture is 1.57 atm.

Learn more about the pressure of the gas, here:

brainly.com/question/2224724

Explanation:

The given data is as follows.

Number of particles of diatomic gas = 3

Number of particles of monoatomic gas = 6

Number of particles of another monoatomic gas = 5

Therefore, total number of particles or moles present will be as follows.

3 + 6 + 5 = 14

As we know that, mole fraction = $\frac{\text{moles of given substance}}{\text{total no. of moles}}$

Hence, more fraction of the diatomic gas will be as follows.

mole fraction = $\frac{\text{moles of given substance}}{\text{total no. of moles}}$

= $(3)/(14)$

= 0.21

Now, formula to calculate partial pressure will be as follows.

Partial pressure of one species = molar fraction of that species x total pressure

Therefore, $P_(diatomic) = \text{mole fraction diatomic} * P_(total)$

$P_(total) = (0.330 atm)/(0.21)$

= 1.57 atm

Thus, we can conclude that total pressure is 1.57 atm.

What do colligative properties depend on?

Answers

Colligative properties depend on the amount of solute dissolved in a solvent. These set of properties do not depend on the type of species present. These properties include freezing point depression, boiling point elevation, osmotic pressure and vapor pressure lowering.

Answer:

Colligative properties depend on the quantity of solute and solvent and the identity of the solvent.

Explanation:

Colligative properties are defined as a set of intensive physical properties that result from the interactions between solute and solvent that form a solution. In this group of properties, we can find the freezing point depression, boiling point elevation, osmotic pressure, and vapor pressure lowering.

The mentioned properties dependon the amount of solute and solvent (concentration) and the nature of the solvent. this fact can be pictured by the freezing point depression formula:

$T_(f) _(solvent) -T_(f) _(solution) = K_(f) _(x) m$

where $T_(f) _(solvent)$ is the freezing point of the pure solvent, $T_(f) _(solution)$ is the freezing point of the solution, $K_(f)$ is the freezing point depression constant and m is the molality

In the equation, it can be seen that the change of temperature of the solution with respect to the pure solvent depends on the molality, which is the ratio of moles of solute and mass of solvent. Moreover, the change also depends on the freezing point depression constant that is a characteristic of the solvent.

What is the term for a fine grained soil deposited by the wind

Answers

I think it is called a loess. Please correct me if I am wrong.

Difference between combustible and non - combustible

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Answer:

A substance which burns in air and tends to produce heat and light is known as Combustible substances. Non-combustible substances are certain substances which are not combustible in the presence of air. Will not burn on being exposed to flame.

Answer:

Explanation:

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